Nitrogen Nutrition of Potato Cultivars Differing in Maturity

In potato, dry matter (DM) production and partitioning between plant organs and N accumulation are affected by N application; however, since cultivars differ in these processes, N fertilization must be adjusted to each cultivar. This paper studies the response of potato cultivars differing in maturity to N fertilization in the south-east of the Buenos Aires Province (37°45'S, 58°18'W) in two growing seasons. Treatments combined four N doses (0–180 kg ha⁻¹) and four cultivars: Jaerla (early), Spunta (mid-early), Mailén INTA (medium late) and Huinkul MAG (late). DM and N content were measured in leaves, stems and tubers throughout the growing season and intercepted photosynthetically active radiation was regularly assessed. There was an increase in tuber yield up to intermediate N doses (60 kg ha⁻¹ in 1990 and 120 kg ha⁻¹ in 1991). Tuber yield was similar for Spunta and Huinkul MAG. There was no interaction between cultivar and N fertilization for tuber dry matter yield. DM partitioning to leaves and tubers during the growing season differed among cultivars, but N availability affected partitioning similarly for all cultivars. Jaerla had a high and Huinkul MAG had a low radiation use efficiency between plant emergence and the beginning of tuber formation. Jaerla, Spunta and Mailén INTA reached maximum N content in foliage at ≈60 days after emergence and Huinkul MAG 20 days later. Total N content at maturity varied between 120 and 250 kg ha⁻¹ and was affected by cultivar and N dose. The results will help to improve N fertilization recommendations and management practices as related to each cultivar under the environmental conditions of this region.     

9000 kg/公顷小麦施氮量与生理特性分析

在本试验生产条件下和施氮量范围内, 具有9000 kg/hm2产量潜力的品种鲁麦22与7500 kg/hm2产量潜力的鲁麦14相比较, 鲁麦22品种随着施氮量的增加, 开花后旗叶光合速率高值持续期长, 旗叶磷酸蔗糖合成酶(SPS)活性和籽粒腺苷二磷酸葡萄糖焦磷酸化酶(ADPG-Ppase)活性高, 标记旗叶的14C同化物滞留在标记叶中的比例少、向籽粒分配的     

Effects of Nitrogen and Plant Density on Growth, Yield and Chemical Composition of Two Winter Wheat (Triticum aestivum L.) Cultivars

A field study was conducted on the winter wheat cultivars Arminda and Okapi , using two seed rates (80 and 160 kg/ha) and three N applications (40, 80 and 120 kg/ha).
The cultivars did not differ in total dry matter production but did differ in grain yield. The difference in grain yield was mainly attributable to a higher harvest index (HI).
Increased plant density reduced HI; it resulted in more shoots per m², but in a lower grain yield. The reduction in grain yield was caused by fewer kernels per ear and a lower 1000-grain weight in both cultivars.
A higher rate of N increased total dry matter production and grain yield, except in Okapi at the high plant density. The number of kernels per ear increased, but 1000-grain weight fell.
The higher the N applications, the higher the N-content of the roots was.
Total N yield was greater in Arminda than in Okapi. The cultivars differed in the amount of nitrogen they took up after anthesis.
The content of water-soluble carbohydrates (WSC) differed between the cultivars, N treatments and growth stages. Carbohydrate formed before anthesis accounted for 23 % of Arminda's grain yield and for 10 % of Okapi's grain yield.
The content of cell-wall constituents (CWC) depended on cultivar, growth stage and the rate of the N dressing. Differences in CWC were more pronounced in Arminda than in Okapi. During leaf, stem and ear development there was a strong increase in content and amount of CWC. Concomitantly, WSC decreased. This implies that a large consumption of WSC is necessary for the formation of CWC. The competition for the WSC, necessary for CWC and shoot and ear development influences kernel initiation. Per unit of dry matter Okapi contained more CWC than Arminda. This was not in agreement with differences in straw sturdiness.     

Effects of Nitrogen and Foliar Sulphur Interaction on Grain Yield and Yield Components in Barley

In this study, conducted from 1979 to 1986 in southern Spain, the objective was to analyze the effects of a possible interaction between soil-applied N and foliar S applied to barley (Hordeum vulgare L.) during tillering on grain yield and to identify the mechanism involved. From 1979 to 1982, we used rates of 20, 40, 60 and 80 kg a.i. N ha^?1, together with 12.5 or 25 kg foliar a.i. S ha^?1 during tillering. The results demonstrated that foliar S at both dosages acted as a partial (but not total) substitute for N, when the latter was applied at levels of 40 to 60 kg ha^?1. These effects of S did not appear to result only from a nutritive mechanism, but rather from a hormonal mechanism through the increase in ethylene biosynthesis. Therefore, during 1983 to 1986, we used 40, 60 and 80 kg a. i. N ha^?1, together with 12.5 a. i. S ha^?1 and 0.55 kg a.i. ethrel (2-chloroethyl-phosphonic acid) ha^?1. The results showed that the effects of S and ethrel on yield were practically the same. Assayed with 40 and 60 kg N ha^?1, S and ethrel acted as partial (but not total) substitutes for N, exceeding the yield of the control without S or ethrel, and equalling the yield obtained with 20 kg more of N ha^?1. The S or ethrel applied with 80 kg N ha^?1 presented an additive effect with the N. The increases in yield using S or ethrel were in all cases due to the increased final number of spikes m^?2, which was principally a consequence of the higher number of tillers formed but also a result of increased survival of tillers to form a viable spike. In addition, the positive effects of S on yield were greater the smaller the N dosage and the lower the annual yield. Finally, we present a possible mechanism of hormonal action, to explain how foliar S applied during tillering affects grain yield in barley.     

不同密氮模式下高产玉米品种籽粒产量与氮素利用特性研究

为给玉米高产高效栽培提供科学依据,在大田试验条件下,选用郑单958和先玉335为材料,在每个品种下设置2个种植密度(6.75,8.25万株/hm~2)和4个施氮水平(0,180,240,300 kg/hm~2),研究了种植密度和施氮水平下2个高产玉米品种籽粒产量和氮素吸收利用特性。结果表明:在相同密度水平下,2个玉米品种籽粒产量、氮素积累量和蛋白质产量均随施氮量增加总体呈现增加趋势,氮素利用效率则降低;在相同施氮水平下,2个玉米品种籽粒产量、氮素积累量和蛋白质产量均随密度的增加总体呈现增加趋势,氮素利用效率则降低。在不同密氮组合下,先玉335的籽粒产量、氮素积累量、蛋白质产量及氮素利用效率均高于郑单958。本研究条件下,2个玉米品种在密度为8.25万株/hm~2,施氮量为240 kg/hm~2组合下,均可以同步协调实现籽粒产量、蛋白质产量和氮素利用效率的协调统一。     

水氮管理模式对不同氮效率水稻氮素利用特性及产量的影响

以高产氮高效品种(德香4103)和中产氮低效品种(宜香3724)为材料,通过“淹水灌溉+氮肥优化运筹(W1N1)”、“控制性交替灌溉+氮肥优化运筹(W2N1)”、“旱种+氮肥优化运筹(W3N2)” 3种水氮管理模式处理,研究其对氮素利用及产量的影响及其生理特性,并探讨氮素利用及产量与生理响应间的关系。结果表明,氮效率品种间的差异与水氮管理模式对水稻氮素利用特征、灌溉水生产效率、生理特性及产量均存在显著影响;不同氮效率品种间在氮肥利用效率方面的差异明显高于水氮管理模式的调控效应;而水氮管理模式对灌溉水生产效率、总吸氮量、氮素干物质生产效率及稻谷生产效率的调控作用显著。W2N1相对于W1N1及W3N2水氮管理模式能促进不同氮效率水稻拔节至抽穗期、抽穗至成熟期氮素的累积,提高功能叶谷氨酰胺合成酶(GS)活性、光合速率(P_n)及根系活力,进而提高稻谷产量及氮肥利用率,且对中产氮低效品种的调控效应显著高于对高产氮高效品种,为本试验最佳的水氮管理模式。高产氮高效品种的平均总颖花数、拔节至抽穗期稻株氮累积量、功能叶GS活性、P_n及根系活力均显著高于氮低效品种,尤其结实期高产氮高效品种更有利于维持叶片及根系的代谢同化能力,利于氮素转运、再分配到籽粒中提高稻谷生产效率及氮肥利用效率,是氮高效品种相对于氮低效品种高产、氮高效利用的重要原因。相关分析表明,水氮管理模式下不同氮效率水稻主要生育时期功能叶GS活性、P_n及根系活力与氮素利用及稻谷产量均存在显著或极显著的正相关;尤其以水稻抽穗期剑叶GS活性及根系活力与氮素利用及稻谷产量的正相关性最高。     

Agronomic Performance and Nutrient Concentration of Maize (Zea mays L.) as Influenced by Nitrogen Fertilization and Plant Density

A field experiment was conducted at Samaru, Nigeria to study the influence of nitrogen fertilization and plant density on the agronomic performance and nutrient concentration of maize ( Zea mays L.). The treatments were factorial combinations of five nitrogen fertilization rates (0, 50, 100, 150 and 200 kg N/ha) and three plant density levels (25000, 50000 and 75000 plants/ha).
Nitrogen fertilization up to 150 kg N/ha enhanced grain and stover yields and increased kernel number and weight up to 100 kg N/ha. Nitrogen supply also increased maize ear length. Increased N fertilization rates increased concentrations of N, K and Mg but had no effect on P and Ca concentrations. Higher grain yield was closely associated with higher N concentration in ear leaf; with 0.1 % change in N concentration causing 177 kg/ha change in grain yield. Increased plant density increased stover yield up to 50 or 75 thousand plants/ha but depressed kernel number and weight and ear length.     

Breeding Progress in Grain Yield and Selected Agronomic Characters of Winter Barley (Hordeum vulgare L.) over the Last Quarter of a Century

This study gives estimates of breeding progress achieved in winter barley (Hordeum vulgare L.) since the 1960′s in grain yield and the change in several morphological traits for seventeen historically important cultivars: 12 six-rowed and 5 two-rowed, grouped into four epochs according to the period of major commercialization in Italy. All genotypes were evaluated across a range of soil fertility and climatic environments. The modern six-rowed cultivars have shown a consistent increase in tillers/m² and seeds/spike (16 and 28 %, respectively) over the local populations. In the modern two-rowed cultivar ‘Igri’ the increase in tillers/m² and seed weight were, respectively, 20 and 14 % snd seeds/spike decreased by 20 % over the local populations. The modern six-rowed and two-rowed cultivars have less lodging, are earlier and shorter than the old varieties and local populations. In the last quarter of a century, the breeding progress for gram yield has been increased by 52 and 74 kg/ ha/year or 0.75 and 1.1 % per year respectively, for six-rowed and two-rowed genotypes: while the gain in biomass yield in the same period was not uniform for six-rowed cuitivars and increased by 64 kg/ha/ year or 0.46 % in two-rowed cultivars. The grain yield improvement in the modern six-rowed and two-rowed cultivars is the result of a better partitioning of the photosynthetic products into the grain.     

Winter Wheat Cultivar Responses to Fungicide Application are Affected by Nitrogen Fertilization Rate

Foliar fungicides are important management inputs for winter wheat (Triticum aestivum L.) in high-yielding areas of Europe, but their effectiveness may interact with cultivar selection and nitrogen (N) fertilization. No information is available on the potential use of fungicides in reducing yield losses from foliar diseases in Croatia, where wheat crop is extensively grown under low N inputs. Field experiments were conducted during 2000–02 to evaluate the agronomic responses of six winter wheat cultivars to fungicide application (tebuconazol around heading) compared with untreated plots at low (67 kg N ha⁻¹) and high (194 kg N ha⁻¹) N fertilization rates. Grain yields tended to increase in all years following fungicide treatment at high N rate by an average of 10.1 % (773 kg ha⁻¹), but improved significantly in one year only at low N rate. When these occurred, yield increases were associated with larger grain weight per ear primarily due to heavier 1000-kernel weight. Cultivars differed in their responses to fungicide application across growing seasons and N fertilization rates. Under low disease pressure in 2000 and 2001, improved yields with fungicide use occurred for few susceptible cultivars only, whereas all cultivars significantly increased yields under higher disease severity in 2002 by an average of 383 kg ha⁻¹ (5.0 %) at low N rate and 1443 kg ha⁻¹ (19.0 %) at high N rate. Following fungicide application at high N rate, some susceptible cultivars outyielded resistant cultivars, whereas opposite responses occurred in untreated plots. High N fertilization rate consistently produced larger grain yields except under high disease severity and no fungicide sprayed in 2002, when it had no benefits at all over low N rate. Fungicide application showed limited importance for wheat performance at low N rate; however, cultivars significantly differed in yield responses as well as in rankings after fungicide use at high N fertilization rate.     

Durum wheat varieties in N‐deficient environments and organic farming: a comparison of yield,quality and stability performances

Stability and reliability of yield and quality for 15 durum wheat genotypes (old and modern) were evaluated in a 5‐year experiment (southern Italy) in organic farming. Genotypes were grown at two N levels (0 and 80 kg/ha), with the aim of evaluating ‘genotype × environment’ (GE) interactions and their role on genotype selection in N‐limited environments. Several approaches to stability were used, within the frame of mixed models and additive main effects and multiplicative interaction analysis, and their validity in stressful conditions and organic farming was discussed. Especially for protein and gluten content, results indicate high environmental variability and the presence of crossover ‘N × environment’ interactions, which supports the need for specific breeding programmes in N‐deficient environments. The average response was strongly affected by N availability (on average, yield was 2.95 and 3.42 t/ha, protein content was 11.6% and 12.85%, gluten content was 8.55% and 9.92%, respectively, at 0 and 80 kg N/ha), and few genotypes gave high yield and quality at both fertilization levels. Only ‘Gargano’ and ‘Fortore’ showed a good inter‐year stability at both N levels. The old cultivars gave minimal responsiveness to increased N input, but gave good results in limiting conditions, indicating that they may play a role in organic farming.     

Differential Response of Soybean Cultivars Promiscuous to Native Rhizobia to Split Application of Fertilizer N in Nigerian Savanna

Field experiments were conducted to ascertain the differential response of promiscuous soybean cultivars to split application of fertilizer N during 1984 and 1985 at Yandev Agricultural Experiment Station, Nigeria. The cultivars were grown with and without 205 kg N/ha and was applied into equal splits at 20, 40, 60 and 80 days after planting in 1984. In 1985, however, graded doses of 0, 50, 100 and 200 kg fertilizer N/ha were equally split into 3 and applied at 30, 50 and 70 days after planting.
In both years, averaged over all cultivars, split application of N increased the grain yield and total N content of shoot and decreased the nodulation significantly. Cultivars X N interaction existed in affecting the grain yield and total N content wherein cultivars like TGX 297-35C, TGX 536-02D, TGX 713-011D and TGX 306-036D showed significant increase in grain yield and total N content as against no effect on these attributes of other cultivars. This probably proves our hypothesis that, though some promiscuous cultivars yield moderately better without inoculation with R. japonicum or fertilizer; they are incapable of fixing sufficient quantity of atmospheric N symbiotically for maximum soybean yields and therefore require fertilizer N to be applied into splits at several growth and development stages of crop.     

高肥力土壤氮钾配施对鲜食型甘薯产量及品质的影响

为了探明高肥力土壤氮钾配施对烟薯25产量和品质的影响,采用二因素三水平完全随机区组试验设计,分别设3个N处理(0,45,90 kg/hm~2)和3个K_2O处理(0,75,150 kg/hm~2),共计9个氮钾组合处理,分别于收获期调查甘薯地上部性状,测定块根干鲜质量、Vc、淀粉、蛋白质、蔗糖、葡萄糖、果糖、Ca、Mg、Fe、Mn、Cu、Zn含量。结果表明:高肥力土壤上施用氮肥可增加甘薯蔓长、茎叶鲜质量、T/R值,并提高甘薯块根内蛋白质、葡萄糖和蔗糖的含量,高肥力土壤上施用氮肥情况下,块根干鲜质量、淀粉和果糖含量有所降低。施用钾肥能显著提高块根干鲜质量、薯干率及淀粉和葡萄糖的含量;促进了甘薯对Mg的吸收,降低了甘薯对Ca的吸收。在氮钾互作条件下,甘薯分枝数、结薯数及Vc、蛋白质、蔗糖、葡萄糖、果糖含量与不施肥处理相比均有所提高;鲜薯产量与氮肥、钾肥的施用存在交互作用,即在不施N、施K_2O 150 kg/hm~2时,甘薯产量达到最高,较不施肥处理增产10 825.5 kg/hm~2,增幅为29.2%。同时在施N 90 kg/hm~2、不施K_2O时,甘薯产量最低,较不施肥处理减产1 435.5 kg/hm~2,降幅为3.9%。因此,在高肥力土壤,应不施或少施氮肥并配施适量钾肥以期获得鲜食型甘薯的高产优质。     

灌溉条件下燕麦氮、磷、钾配方施肥效应分析及与产量回归模型的建立

为探讨灌溉条件下燕麦品种银燕6号氮（N）、磷（P）、钾（K）配方施肥的肥料效应,采用“3414”试验方案,研究N、P、K不同施用配比对燕麦产量和农艺性状的影响,建立了施肥与产量的回归模型,为构建灌溉条件下燕麦施肥指标体系提供科学依据。结果表明,处理N₂P₂K₂籽粒产量（5100.0kg/hm²）、肥料贡献率（34.8%）、产值（20 400.0元/hm²）在14个处理中均最高;增产效应为N>P>K,并且N、P、K肥间存在明显的交互作用;N、P、K单种肥料施用量与籽粒产量呈抛物线关系,根据拟合函数得出,N、P、K最大施用量分别为229.8、80.5、26.4kg/hm²;根据N、P₂O₅和K₂O施用量对籽粒产量的影响,建立了三因素的施肥数学模型,进一步得出,燕麦产量≥4950.0kg/hm²时,氮（N）︰磷（P₂O₅）︰钾（K₂O）施肥比例为1.54︰1︰0.23,N、P₂O₅、K₂O施用量范围分别是148.8~198.3、>112.5和14.3~37.2kg/hm²。该结论对灌溉条件下燕麦生产具有实际指导意义。     

施氮量对超级杂交稻Y两优900产量与氮肥利用率的影响

为探明施氮量对超级杂交稻Y两优900产量形成与氮肥利用的影响,于2020-2021年在湖南省浏阳市开展大田试验,研究不同施氮量(N0:0kg/hm²;N1:120kg/hm²;N2:180kg/hm²;N3:240kg/hm²)处理下Y两优900的产量以及氮肥利用率差异。结果表明,Y两优900在N2处理下2年产量分别为8.77和8.82t/hm²,高于N0和N1处理,与N3处理差异不显著。穗数和穗粒数在各施肥处理间无显著差异,结实率在N2处理下高于其他2个处理,千粒重有随着施氮量增加而增加的趋势。N2处理的总干物质积累量低于N3处理,但其收获指数高于N3处理。随施氮量的增加,各处理氮肥农学利用率和氮肥偏生产力逐渐降低。N2处理的氮肥籽粒生产效率和氮收获指数均高于N3处理。由此可见,在本试验条件(中产区)下,180kg/hm²施氮量有利于在保证超级杂交稻Y两优900高产的同时,实现较高的氮肥利用率。     

追氮量对不同筋型小麦品种产量及农艺性状的调控效应

试验于2016-2017年在中国农业科学院作物科学研究所北京试验基地进行,以强筋小麦藁优2018和师栾02-1,中筋小麦中麦8号和中麦175,弱筋小麦扬麦22和扬麦15为试验材料,设置拔节期追氮量75、105和135kg/hm²处理,探究追氮量对不同筋型小麦产量及农艺性状的调控效应。播种前底施纯磷135kg/hm²、纯氮105kg/hm²。结果表明,增加追氮量可以促进拔节期两极分化,减少无效分蘖,提高成穗数,其中对强筋小麦的影响大于对中筋和弱筋小麦的影响。在75～135kg/hm²范围内增加追氮量可提高各品种的叶面积指数(LAI),减缓开花到灌浆期间LAI的下降速度,对中筋小麦的效果最明显。小麦株高、穗长和结实小穗数均以追氮量135kg/hm²最高,不孕小穗数则随着追氮量增加显著减少。在追氮量75～135kg/hm²范围内,各筋型小麦品种籽粒产量、成穗数、穗粒数及千粒重均随追氮量的增加而显著提高,以追氮量135kg/hm²最高。     

糯玉米氮肥利用效率的基因型差异

以近年育成的31个糯玉米(Zea mays L. ceratina Kulesh)品种为试材,对其氮肥吸收利用率(RE)、氮肥生理利用率(PE)、氮肥农学利用率(AE)和氮肥偏生产力(PFP)的差异进行了比较。结果表明,各品种以收获鲜穗、鲜籽粒或成熟籽粒为目的,其AE、RE、PE和PFP均存在显著差异。聚类结果显示,无论收获产品是鲜穗、鲜籽粒还是成熟籽粒,属于高产、高氮肥利用效率(NUE)的品种有6个,即凤糯2146、京科糯267、京科糯218、粤白糯1号、SW42和SAUWX02。与其他品种相比,这6个糯玉米品种的鲜穗、鲜籽粒和成熟籽粒的平均产量分别高17.9%、18.1%和28.6%,平均AE分别高45.2%、50.2%和64.7%,平均RE分别高35.1%、35.1%和36.7%,平均PE分别高4.5%、9.7%和20.3%,平均PFP分别高17.9%、18.1%和28.6%。相关分析表明,提高糯玉米氮收获指数,增加氮素在植株体内的运转率有利于NUE的提高。     

施肥对不同株型绿豆品种生长发育及产量的影响

为了探讨施肥对不同株型绿豆品种生长发育及产量的影响,采用磷酸二铵做种肥进行了不同施肥水平处理试验。结果表明:不同株型的绿豆品种都是以适量施肥(150 kg/hm2)处理的产量最佳,说明适量施肥能够促进绿豆的生长发育,从而可提高绿豆的产量。蔓生株型辽绿6号的各施肥处理的产量都高于直立株型辽绿5号的产量,说明辽绿6号比辽绿5号的增产潜力大。     

黄土高原长期施用磷肥效应研究

以黄土高原长期定位试验为基础,研究施一定量氮肥(90 kg/hm2)的前提下,长期施用磷肥对黄土高原旱作冬小麦的肥料效应。结果表明,长期施用磷肥的农田施磷仍能显著提高小麦的产量,增产量达1393.75~2121.00kg/hm2,增产率为48.41%~73.67%,本试验中施磷39.6 kg/hm2时小麦产量达最大值5000 kg/hm2,这与小麦成穗数最大时的施肥量结果一致;产量与施磷量关系用回归方程Y=-0.8667X2+82.641X+3008.4(R2=0.92)拟合效果良好;施磷主要是通过影响小麦成穗数来影响小麦产量,而对穗粒数和千粒重的促进作用不明显;施磷还可促进小麦对氮磷钾养分的吸收利用,提高肥料的肥效和利用率;施磷过少不能满足作物需求,小麦产量较低,施磷过多小麦产量不会随施肥量的增加继续提高,反而有一定幅度的下降。     

N-Dynamik des Bodens, Ertragsbildung und Stickstoffentzug von Winterweizen bei unterschiedlicher Höhe und Verteilung der mineralischen N-Düngung

NO₃ dynamics in the soil, yield formation and N uptake of winter wheat as influenced by dosage and distribution effects of N-fertilizer application
In a 4 year series of field trials carried out with 9 regimes of nitrogen fertilizer application at two trial sites with rather shallow top soil layers but large deviations in soil characteristics, grain yield varied between 50 dt/ ha and 120 dt/ha with nitrogen doses from 0–170 kg N/ha. Soil nitrogen supply for wheat grain formation on unfertilized plots reached 80 kg N/ha/year within the narrow range of 75–95 kg N/ha in different years at both sites which amounts to 1.5 % and 0.5 % of the highly different N-content of the trial sites.
The most successful nitrogen application regimes are characterized by modest fertilizer doses in early spring and the delay of supplemental fertilizer doses until growth stage EC 32. They resulted into modest NO) soil content from EC 29 to EC 32 and/or a noticable decrease of soil NO₃ content during growth stage EC 30–32, which seems to be responsible for the development of only modest stand densities and reduced straw yield, while the delayed supplementation with nitrogen fertilizer overcompensated these effects mainly by increased grain numbers/ear and a remarkable improvement of harvest index.
The contribution of soil borne nitrogen to kernel yield formation started to decrease with even low dosages of supplemental nitrogen fertilization with the exception of the highest yielding season 1987/88. Top levels of grain yield have been regularly obtained with supplemental nitrogen fertilizer dosages about 40 kg N/ha below grain yield nitrogen extraction if they were added within favorable application regimes.     

不同产量潜力玉米籽粒胚乳细胞增殖与籽粒充实期的生理活性

不同产量潜力玉米间单籽粒的胚乳细胞数目差异显著,高产潜力玉米多于中产和低产潜力玉米,中产潜力玉米又多于低产潜力玉米。籽粒的生理状态影响着籽粒灌浆。籽粒灌浆速率、籽粒淀粉磷酸化酶活性及GA3含量的动态变化在时间进程上基本一致,籽粒淀粉磷酸化酶活性及GA3含量对籽粒物质充实有直接作用,其较高含量利于籽粒的干物